Respond to touch events
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Making objects move according to a preset program like the rotating triangle is useful for
getting some attention, but what if you want to have users interact with your OpenGL ES graphics?
The key to making your OpenGL ES application touch interactive is expanding your implementation of
GLSurfaceView to override the
onTouchEvent() to listen for touch events.
This lesson shows you how to listen for touch events to let users rotate an OpenGL ES object.
Setup a touch listener
In order to make your OpenGL ES application respond to touch events, you must implement the
onTouchEvent() method in your
GLSurfaceView class. The example implementation below shows how to listen for
MotionEvent.ACTION_MOVE events and translate them to
an angle of rotation for a shape.
Kotlin
private const val TOUCH_SCALE_FACTOR: Float = 180.0f / 320f
...
private var previousX: Float = 0f
private var previousY: Float = 0f
override fun onTouchEvent(e: MotionEvent): Boolean {
// MotionEvent reports input details from the touch screen
// and other input controls. In this case, you are only
// interested in events where the touch position changed.
val x: Float = e.x
val y: Float = e.y
when (e.action) {
MotionEvent.ACTION_MOVE -> {
var dx: Float = x - previousX
var dy: Float = y - previousY
// reverse direction of rotation above the mid-line
if (y > height / 2) {
dx *= -1
}
// reverse direction of rotation to left of the mid-line
if (x < width / 2) {
dy *= -1
}
renderer.angle += (dx + dy) * TOUCH_SCALE_FACTOR
requestRender()
}
}
previousX = x
previousY = y
return true
}
Java
private final float TOUCH_SCALE_FACTOR = 180.0f / 320;
private float previousX;
private float previousY;
@Override
public boolean onTouchEvent(MotionEvent e) {
// MotionEvent reports input details from the touch screen
// and other input controls. In this case, you are only
// interested in events where the touch position changed.
float x = e.getX();
float y = e.getY();
switch (e.getAction()) {
case MotionEvent.ACTION_MOVE:
float dx = x - previousX;
float dy = y - previousY;
// reverse direction of rotation above the mid-line
if (y > getHeight() / 2) {
dx = dx * -1 ;
}
// reverse direction of rotation to left of the mid-line
if (x < getWidth() / 2) {
dy = dy * -1 ;
}
renderer.setAngle(
renderer.getAngle() +
((dx + dy) * TOUCH_SCALE_FACTOR));
requestRender();
}
previousX = x;
previousY = y;
return true;
}
Notice that after calculating the rotation angle, this method calls
requestRender() to tell the
renderer that it is time to render the frame. This approach is the most efficient in this example
because the frame does not need to be redrawn unless there is a change in the rotation. However, it
does not have any impact on efficiency unless you also request that the renderer only redraw when
the data changes using the setRenderMode()
method, so make sure this line is uncommented in the renderer:
Kotlin
class MyGlSurfaceView(context: Context) : GLSurfaceView(context) {
init {
// Render the view only when there is a change in the drawing data
renderMode = GLSurfaceView.RENDERMODE_WHEN_DIRTY
}
}
Java
public MyGLSurfaceView(Context context) {
...
// Render the view only when there is a change in the drawing data
setRenderMode(GLSurfaceView.RENDERMODE_WHEN_DIRTY);
}
Expose the rotation angle
The example code above requires that you expose the rotation angle through your renderer by
adding a public member. Since the renderer code is running on a separate thread from the main user
interface thread of your application, you must declare this public variable as volatile.
Here is the code to declare the variable and expose the getter and setter pair:
Kotlin
class MyGLRenderer4 : GLSurfaceView.Renderer {
@Volatile
var angle: Float = 0f
}
Java
public class MyGLRenderer implements GLSurfaceView.Renderer {
...
public volatile float mAngle;
public float getAngle() {
return mAngle;
}
public void setAngle(float angle) {
mAngle = angle;
}
}
Apply rotation
To apply the rotation generated by touch input, comment out the code that generates an angle and
add a variable that contains the touch input generated angle:
Kotlin
override fun onDrawFrame(gl: GL10) {
...
val scratch = FloatArray(16)
// Create a rotation for the triangle
// long time = SystemClock.uptimeMillis() % 4000L;
// float angle = 0.090f * ((int) time);
Matrix.setRotateM(rotationMatrix, 0, angle, 0f, 0f, -1.0f)
// Combine the rotation matrix with the projection and camera view
// Note that the mvpMatrix factor *must be first* in order
// for the matrix multiplication product to be correct.
Matrix.multiplyMM(scratch, 0, mvpMatrix, 0, rotationMatrix, 0)
// Draw triangle
triangle.draw(scratch)
}
Java
public void onDrawFrame(GL10 gl) {
...
float[] scratch = new float[16];
// Create a rotation for the triangle
// long time = SystemClock.uptimeMillis() % 4000L;
// float angle = 0.090f * ((int) time);
Matrix.setRotateM(rotationMatrix, 0, mAngle, 0, 0, -1.0f);
// Combine the rotation matrix with the projection and camera view
// Note that the vPMatrix factor *must be first* in order
// for the matrix multiplication product to be correct.
Matrix.multiplyMM(scratch, 0, vPMatrix, 0, rotationMatrix, 0);
// Draw triangle
mTriangle.draw(scratch);
}
When you have completed the steps described above, run the program and drag your finger over the
screen to rotate the triangle:
Figure 1. Triangle being rotated with touch input (circle shows touch
location).
Content and code samples on this page are subject to the licenses described in the Content License. Java and OpenJDK are trademarks or registered trademarks of Oracle and/or its affiliates.
Last updated 2024-05-20 UTC.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Missing the information I need","missingTheInformationINeed","thumb-down"],["Too complicated / too many steps","tooComplicatedTooManySteps","thumb-down"],["Out of date","outOfDate","thumb-down"],["Samples / code issue","samplesCodeIssue","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2024-05-20 UTC."],[],[],null,["# Respond to touch events\n\nMaking objects move according to a preset program like the rotating triangle is useful for\ngetting some attention, but what if you want to have users interact with your OpenGL ES graphics?\nThe key to making your OpenGL ES application touch interactive is expanding your implementation of\n[GLSurfaceView](/reference/android/opengl/GLSurfaceView) to override the\n[onTouchEvent()](/reference/android/view/View#onTouchEvent(android.view.MotionEvent)) to listen for touch events.\n\nThis lesson shows you how to listen for touch events to let users rotate an OpenGL ES object.\n\nSetup a touch listener\n----------------------\n\nIn order to make your OpenGL ES application respond to touch events, you must implement the\n[onTouchEvent()](/reference/android/view/View#onTouchEvent(android.view.MotionEvent)) method in your\n[GLSurfaceView](/reference/android/opengl/GLSurfaceView) class. The example implementation below shows how to listen for\n[MotionEvent.ACTION_MOVE](/reference/android/view/MotionEvent#ACTION_MOVE) events and translate them to\nan angle of rotation for a shape. \n\n### Kotlin\n\n```kotlin\nprivate const val TOUCH_SCALE_FACTOR: Float = 180.0f / 320f\n...\nprivate var previousX: Float = 0f\nprivate var previousY: Float = 0f\n\noverride fun onTouchEvent(e: MotionEvent): Boolean {\n // MotionEvent reports input details from the touch screen\n // and other input controls. In this case, you are only\n // interested in events where the touch position changed.\n\n val x: Float = e.x\n val y: Float = e.y\n\n when (e.action) {\n MotionEvent.ACTION_MOVE -\u003e {\n\n var dx: Float = x - previousX\n var dy: Float = y - previousY\n\n // reverse direction of rotation above the mid-line\n if (y \u003e height / 2) {\n dx *= -1\n }\n\n // reverse direction of rotation to left of the mid-line\n if (x \u003c width / 2) {\n dy *= -1\n }\n\n renderer.angle += (dx + dy) * TOUCH_SCALE_FACTOR\n requestRender()\n }\n }\n\n previousX = x\n previousY = y\n return true\n}\n```\n\n### Java\n\n```java\nprivate final float TOUCH_SCALE_FACTOR = 180.0f / 320;\nprivate float previousX;\nprivate float previousY;\n\n@Override\npublic boolean onTouchEvent(MotionEvent e) {\n // MotionEvent reports input details from the touch screen\n // and other input controls. In this case, you are only\n // interested in events where the touch position changed.\n\n float x = e.getX();\n float y = e.getY();\n\n switch (e.getAction()) {\n case MotionEvent.ACTION_MOVE:\n\n float dx = x - previousX;\n float dy = y - previousY;\n\n // reverse direction of rotation above the mid-line\n if (y \u003e getHeight() / 2) {\n dx = dx * -1 ;\n }\n\n // reverse direction of rotation to left of the mid-line\n if (x \u003c getWidth() / 2) {\n dy = dy * -1 ;\n }\n\n renderer.setAngle(\n renderer.getAngle() +\n ((dx + dy) * TOUCH_SCALE_FACTOR));\n requestRender();\n }\n\n previousX = x;\n previousY = y;\n return true;\n}\n```\n\nNotice that after calculating the rotation angle, this method calls\n[requestRender()](/reference/android/opengl/GLSurfaceView#requestRender()) to tell the\nrenderer that it is time to render the frame. This approach is the most efficient in this example\nbecause the frame does not need to be redrawn unless there is a change in the rotation. However, it\ndoes not have any impact on efficiency unless you also request that the renderer only redraw when\nthe data changes using the [setRenderMode()](/reference/android/opengl/GLSurfaceView#setRenderMode(int))\nmethod, so make sure this line is uncommented in the renderer: \n\n### Kotlin\n\n```kotlin\nclass MyGlSurfaceView(context: Context) : GLSurfaceView(context) {\n\n init {\n // Render the view only when there is a change in the drawing data\n renderMode = GLSurfaceView.RENDERMODE_WHEN_DIRTY\n }\n}\n```\n\n### Java\n\n```java\npublic MyGLSurfaceView(Context context) {\n ...\n // Render the view only when there is a change in the drawing data\n setRenderMode(GLSurfaceView.RENDERMODE_WHEN_DIRTY);\n}\n```\n\nExpose the rotation angle\n-------------------------\n\nThe example code above requires that you expose the rotation angle through your renderer by\nadding a public member. Since the renderer code is running on a separate thread from the main user\ninterface thread of your application, you must declare this public variable as `volatile`.\nHere is the code to declare the variable and expose the getter and setter pair: \n\n### Kotlin\n\n```kotlin\nclass MyGLRenderer4 : GLSurfaceView.Renderer {\n\n @Volatile\n var angle: Float = 0f\n}\n```\n\n### Java\n\n```java\npublic class MyGLRenderer implements GLSurfaceView.Renderer {\n ...\n\n public volatile float mAngle;\n\n public float getAngle() {\n return mAngle;\n }\n\n public void setAngle(float angle) {\n mAngle = angle;\n }\n}\n```\n\nApply rotation\n--------------\n\nTo apply the rotation generated by touch input, comment out the code that generates an angle and\nadd a variable that contains the touch input generated angle: \n\n### Kotlin\n\n```kotlin\noverride fun onDrawFrame(gl: GL10) {\n ...\n val scratch = FloatArray(16)\n\n // Create a rotation for the triangle\n // long time = SystemClock.uptimeMillis() % 4000L;\n // float angle = 0.090f * ((int) time);\n Matrix.setRotateM(rotationMatrix, 0, angle, 0f, 0f, -1.0f)\n\n // Combine the rotation matrix with the projection and camera view\n // Note that the mvpMatrix factor *must be first* in order\n // for the matrix multiplication product to be correct.\n Matrix.multiplyMM(scratch, 0, mvpMatrix, 0, rotationMatrix, 0)\n\n // Draw triangle\n triangle.draw(scratch)\n}\n```\n\n### Java\n\n```java\npublic void onDrawFrame(GL10 gl) {\n ...\n float[] scratch = new float[16];\n\n // Create a rotation for the triangle\n // long time = SystemClock.uptimeMillis() % 4000L;\n // float angle = 0.090f * ((int) time);\n Matrix.setRotateM(rotationMatrix, 0, mAngle, 0, 0, -1.0f);\n\n // Combine the rotation matrix with the projection and camera view\n // Note that the vPMatrix factor *must be first* in order\n // for the matrix multiplication product to be correct.\n Matrix.multiplyMM(scratch, 0, vPMatrix, 0, rotationMatrix, 0);\n\n // Draw triangle\n mTriangle.draw(scratch);\n}\n```\n\nWhen you have completed the steps described above, run the program and drag your finger over the\nscreen to rotate the triangle:\n\n\n**Figure 1.** Triangle being rotated with touch input (circle shows touch\nlocation)."]]
